Active Mode Switching in Plasmonic Microlasers by Spatial Control of Optical Gain

The pursuit of miniaturized optical sources for on-chip applications has led to the development of surface plasmon polariton lasers (plasmonic lasers). While applications in spectroscopy and information technology would greatly benefit from the facile and active tuning of the output wavelength from...

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Veröffentlicht in:	Nano letters 2021-11, Vol.21 (21), p.8952-8959
Hauptverfasser:	Keitel, Robert C, Aellen, Marianne, Feber, Boris le, Rossinelli, Aurelio A, Meyer, Stefan A, Cui, Jian, Norris, David J
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creator	Keitel, Robert C Aellen, Marianne Feber, Boris le Rossinelli, Aurelio A Meyer, Stefan A Cui, Jian Norris, David J
description	The pursuit of miniaturized optical sources for on-chip applications has led to the development of surface plasmon polariton lasers (plasmonic lasers). While applications in spectroscopy and information technology would greatly benefit from the facile and active tuning of the output wavelength from such devices, this topic remains underexplored. Here, we demonstrate optically controlled switching between predefined wavelengths within a plasmonic microlaser. After fabricating Fabry–Pérot plasmonic cavities that consist of two curved block reflectors on an ultrasmooth flat Ag surface, we deposit a thin film of CdSe/Cd x Zn1–x S/ZnS colloidal core/shell/shell nanoplatelets (NPLs) as the gain medium. Our cavity geometry allows the spatial and energetic separation of transverse modes. By spatially modulating the gain profile within this device, we demonstrate active selection and switching between four transverse modes within a single plasmonic laser. The fast buildup and decay of the plasmonic modes promises picosecond switching times, given sufficiently rapid changes in the structured illumination.
doi_str_mv	10.1021/acs.nanolett.1c01957
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title	Active Mode Switching in Plasmonic Microlasers by Spatial Control of Optical Gain
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